*
* For extensive documentation of FIRM see UKA Techreport 1999-14.
*
- * =========
- *
- * The struct ir_graph
- * -------------------
- *
- * This struct contains all information about a procedure.
- * It's allocated directly to memory.
- *
- * The fields of ir_graph:
- *
- * *ent The entity describing this procedure.
- *
- * The beginning and end of a graph:
- *
- * *start_block This ir_node is the block that contains the unique
- * start node of the procedure. With it it contains
- * the Proj's on starts results.
- * Further all Const nodes are placed in the start block.
- * *start This ir_node is the unique start node of the procedure.
- *
- * *end_block This ir_node is the block that contains the unique
- * end node of the procedure. This block contains no
- * further nodes.
- * *end This ir_node is the unique end node of the procedure.
- *
- * The following nodes are Projs from the start node, held in ir_graph for
- * simple access:
- *
- * *frame The ir_node producing the pointer to the stack frame of
- * the procedure as output. This is the Proj node on the
- * third output of the start node. This output of the start
- * node is tagged as pns_frame_base. In FIRM most lokal
- * variables are modeled as data flow edges. Static
- * allocated arrays can not be represented as dataflow
- * edges. Therefore FIRM has to represent them in the stack
- * frame.
- *
- * *globals This models a pointer to a space in the memory where
- * _all_ global things are held. Select from this pointer
- * with a Sel node the pointer to a global variable /
- * procedure / compiler known function... .
- *
- * *args The ir_node that produces the arguments of the method as
- * it's result. This is a Proj node on the fourth output of
- * the start node. This output is tagged as pns_args.
- *
- * *bad The bad node is an auxiliary node. It is needed only once,
- * so there is this globally reachable node.
- *
- * Datastructures that are private to a graph:
- *
- * *obst An obstack that contains all nodes.
- *
- * *current_block A pointer to the current block. Any node created with
- * one of the node constructors (new_<opcode>) are assigned
- * to this block. It can be set with switch_block(block).
- * Only needed for ir construction.
- *
- * params/n_loc An int giving the number of local variables in this
- * procedure. This is neede for ir construction. Name will
- * be changed.
- *
- * *value_table This hash table (pset) is used for global value numbering
- * for optimizing use in iropt.c.
- *
- * *Phi_in_stack; a stack needed for automatic Phi construction, needed only
- * during ir construction.
- *
- * visited A int used as flag to traverse the ir_graph.
- *
- * block_visited A int used as a flag to traverse block nodes in the graph.
*
* Three kinds of nodes
* --------------------
* *link A pointer to an ir_node. With this pointer all Phi nodes
* are attached to a Block, i.e., a Block points to it's
* first Phi node, this node points to the second Phi node
- * in the Block and so fourth. Used in mature_block
+ * in the Block and so fourth. Used in mature_immBlock
* to find all Phi nodes to be matured. It's also used to
* annotate a node with a better, optimized version of it.
*
*
* This library supplies several interfaces to construct a FIRM graph for
* a program:
- * * A "comfortable" interface generating SSA automatically. Automatically
+ * - A "comfortable" interface generating SSA automatically. Automatically
* computed predecessors of nodes need not be specified in the constructors.
* (new_<Node> constructurs and a set of additional routines.)
- * * A less comfortable interface where all predecessors except the block
+ * - A less comfortable interface where all predecessors except the block
* an operation belongs to need to be specified. SSA must be constructed
- * by hand. (new_<Node> constructors and switch_block()). This interface
+ * by hand. (new_<Node> constructors and set_cur_block()). This interface
* is called "block oriented". It automatically calles the local optimizations
* for each new node.
- * * An even less comfortable interface where the block needs to be specified
+ * - An even less comfortable interface where the block needs to be specified
* explicitly. This is called the "raw" interface. (new_r_<Node>
* constructors). These nodes are not optimized.
*
*
* A global variable holds the current basic block. All (non block) nodes
* generated are added to this block. The current block can be set with
- * switch_block(block). If several blocks are constructed in parallel block
+ * set_cur_block(block). If several blocks are constructed in parallel block
* switches need to be performed constantly.
*
* To generate a Block node (with the comfortable interface) it's predecessor
* control flow nodes need not be known. In case of cyclic control flow these
- * can not be known when the block is constructed. With add_in_edge(block,
+ * can not be known when the block is constructed. With add_immBlock_pred(block,
* cfnode) predecessors can be added to the block. If all predecessors are
- * added to the block mature_block(b) needs to be called. Calling mature_block
+ * added to the block mature_immBlock(b) needs to be called. Calling mature_immBlock
* early improves the efficiency of the Phi node construction algorithm.
- * But if several blocks are constructed at once, mature_block must only
+ * But if several blocks are constructed at once, mature_immBlock must only
* be called after performing all set_values and set_stores in the block!
* (See documentation of new_immBlock constructor.)
*
* ir_node *this_block, *cf_pred1, *cf_pred2, *a_val, *mem, *div, *res, *cf_op;
*
* this_block = new_immBlock();
- * add_in_edge(this_block, cf_pred1);
- * add_in_edge(this_block, cf_pred2);
- * mature_block(this_block);
+ * add_immBlock_pred(this_block, cf_pred1);
+ * add_immBlock_pred(this_block, cf_pred2);
+ * mature_immBlock(this_block);
* a_val = get_value(42, mode_Iu);
* mem = get_store();
* div = new_Div(mem, a_val, a_val);
* ir_node *new_Cmp (ir_node *op1, ir_node *op2);
* ir_node *new_Conv (ir_node *op, ir_mode *mode);
* ir_node *new_Cast (ir_node *op, type *to_tp);
- * ir_node *new_Load (ir_node *store, ir_node *addr);
+ * ir_node *new_Load (ir_node *store, ir_node *addr, ir_mode *mode);
* ir_node *new_Store (ir_node *store, ir_node *addr, ir_node *val);
* ir_node *new_Alloc (ir_node *store, ir_node *size, type *alloc_type,
* where_alloc where);
* ir_node *new_Free (ir_node *store, ir_node *ptr, ir_node *size,
* type *free_type);
* ir_node *new_Proj (ir_node *arg, ir_mode *mode, long proj);
-=======
- * ir_node *new_simpleSel(ir_node *store, ir_node *objptr, entity *ent);
- * ir_node *new_Sel (ir_node *store, ir_node *objptr, int arity,
- * ir_node **in, entity *ent);
- * ir_node *new_Call (ir_node *store, ir_node *callee, int arity,
- * ir_node **in, type_method *type);
- * ir_node *new_Add (ir_node *op1, ir_node *op2, ir_mode *mode);
- * ir_node *new_Sub (ir_node *op1, ir_node *op2, ir_mode *mode);
- * ir_node *new_Minus (ir_node *op, ir_mode *mode);
- * ir_node *new_Mul (ir_node *op1, ir_node *op2, ir_mode *mode);
- * ir_node *new_Quot (ir_node *memop, ir_node *op1, ir_node *op2);
- * ir_node *new_DivMod (ir_node *memop, ir_node *op1, ir_node *op2);
- * ir_node *new_Div (ir_node *memop, ir_node *op1, ir_node *op2);
- * ir_node *new_Mod (ir_node *memop, ir_node *op1, ir_node *op2);
- * ir_node *new_Abs (ir_node *op, ir_mode *mode);
- * ir_node *new_And (ir_node *op1, ir_node *op2, ir_mode *mode);
- * ir_node *new_Or (ir_node *op1, ir_node *op2, ir_mode *mode);
- * ir_node *new_Eor (ir_node *op1, ir_node *op2, ir_mode *mode);
- * ir_node *new_Not (ir_node *op, ir_mode *mode);
- * ir_node *new_Shl (ir_node *op, ir_node *k, ir_mode *mode);
- * ir_node *new_Shr (ir_node *op, ir_node *k, ir_mode *mode);
- * ir_node *new_Shrs (ir_node *op, ir_node *k, ir_mode *mode);
- * ir_node *new_Rot (ir_node *op, ir_node *k, ir_mode *mode);
- * ir_node *new_Cmp (ir_node *op1, ir_node *op2);
- * ir_node *new_Conv (ir_node *op, ir_mode *mode);
- * ir_node *new_Cast (ir_node *op, type *to_tp);
- * ir_node *new_Load (ir_node *store, ir_node *addr);
- * ir_node *new_Store (ir_node *store, ir_node *addr, ir_node *val);
- * ir_node *new_Alloc (ir_node *store, ir_node *size, type *alloc_type,
- * where_alloc where);
- * ir_node *new_Free (ir_node *store, ir_node *ptr, ir_node *size,
- * type *free_type);
- * ir_node *new_Proj (ir_node *arg, ir_mode *mode, long proj);
- * ir_node *new_FuncCall (ir_node *store, ir_node *callee, int arity,
- * ir_node **in, type_method *type);
- *
- * void add_in_edge (ir_node *block, ir_node *jmp);
- * void mature_block (ir_node *block);
- * void switch_block (ir_node *target);
+ * ir_node *new_NoMem (void);
+ * ir_node *new_Mux (ir_node *sel, ir_node *ir_false, ir_node *ir_true, ir_mode *mode);
+ *
+ * void add_immBlock_pred (ir_node *block, ir_node *jmp);
+ * void mature_immBlock (ir_node *block);
+ * void set_cur_block (ir_node *target);
* ir_node *get_value (int pos, ir_mode *mode);
* void set_value (int pos, ir_node *value);
* ir_node *get_store (void);
* Creates a new block. Sets current_block to itself. When a new block is
* created it cannot be known how many predecessors this block will have in the
* control flow graph. Therefore the list of inputs can not be fixed at
- * creation. Predecessors can be added with add_in_edge (block, control flow
+ * creation. Predecessors can be added with add_immBlock_pred (block, control flow
* operation). With every added predecessor the number of inputs to Phi nodes
* also changes.
*
- * The block can be completed by mature_block(block) if all predecessors are
- * known. If several blocks are built at once, mature_block can only be called
+ * The block can be completed by mature_immBlock(block) if all predecessors are
+ * known. If several blocks are built at once, mature_immBlock can only be called
* after set_value has been called for all values that are life at the end
- * of the block. This is necessary so that Phi nodes created by mature_block
+ * of the block. This is necessary so that Phi nodes created mature_immBlock
* get the right predecessors in case of cyclic dependencies. If all set_values
* of this block are called after maturing it and before calling get_value
* in some block that is control flow dependent on this block, the construction
*
* block_before_loop = new_block();
* set_value(x);
- * mature_block(block_before_loop);
+ * mature_immBlock(block_before_loop);
* before2header = new_Jmp;
*
* loop_header = new_block ();
* loop_body = new_block ();
* body2header = new_Jmp();
*
- * add_in_edge(loop_header, before2header);
- * add_in_edge(loop_header, body2header);
- * add_in_edge(loop_body, header2body);
+ * add_immBlock_pred(loop_header, before2header);
+ * add_immBlock_pred(loop_header, body2header);
+ * add_immBlock_pred(loop_body, header2body);
*
- * mature_block(loop_header);
- * mature_block(loop_body);
+ * mature_immBlock(loop_header);
+ * mature_immBlock(loop_body);
*
* get_value(loop_body, x); // gets the Phi in loop_header
* set_value(loop_header, x); // sets the value the above get_value should
* // have returned!!!
*
- * Mature_block also fixes the number of inputs to the Phi nodes. Mature_block
+ * Mature_immBlock also fixes the number of inputs to the Phi nodes. Mature_immBlock
* should be called as early as possible, as afterwards the generation of Phi
* nodes is more efficient.
*
* later) optimizations are skipped. This is necessary to
* construct Blocks in loops. Leaving Unknown in the Block after finishing
* the construction may have strange effects, especially for interprocedural
- * representation and analyses.
+ * representation and analysis.
*
*
* CONTROL FLOW OPERATIONS
* No inputs except the block it belogns to.
* Output:
* A tuple of 4 (5, 6) distinct values. These are labeled by the following
- * projection numbers (pns_number):
- * * pns_initial_exec
- * mode X, points to the first block to be executed.
- * * pns_global_store
- * mode M, the global store
- * * pns_frame_base mode P, a pointer to the base of the procedures
- * stack frame.
- * * pns_globals mode P, a pointer to the part of the memory containing
- * _all_ global things.
- * * pns_args mode T, a tuple containing all arguments of the procedure.
+ * projection numbers (pn_Start):
+ * * pn_Start_X_initial_exec mode X, points to the first block to be exe * cuted.
+ * * pn_Start_M mode M, the global store
+ * * pn_Start_P_frame_base mode P, a pointer to the base of the proce * dures stack frame.
+ * * pn_Start_P_globals mode P, a pointer to the part of the memory * containing_all_ global things.
+ * * pn_Start_T_args mode T, a tuple containing all arguments of * the procedure.
*
*
* ir_node *new_End (void)
* attr.con A tarval* pointer to the proper entry in the constant
* table.
*
- * ir_node *new_SymConst (type *tp, symconst_addr_ent kind)
- * ------------------------------------------------------------
+ * ir_node *new_SymConst (union symconst_symbol value, symconst_addr_ent kind)
+ * ---------------------------------------------------------------------------
*
* There are three kinds of symbolic constants:
* symconst_type_tag The symbolic constant represents a type tag.
* variable.
* To represent a pointer to an entity that is represented by an entity
* datastructure don't use
- * new_SymConst((type_or_id*)get_entity_ld_ident(ent), linkage_ptr_info);.
+ * new_SymConst((type_or_id*)get_entity_ld_ident(ent), symconst_addr_name);.
* Use a real const instead:
- * new_Const(mode_P_mach, tarval_p_from_entity(ent));
+ * new_SymConst(mode_P_mach, tarval_p_from_entity(ent));
* This makes the Constant independent of name changes of the entity due to
* mangling.
*
* ------------
*
* Selects a field from an array type. The entity has as owner the array, as
- * type the arrays element type. The indexes to access an array element are
+ * type the arrays element type. The indices to access an array element are
* given also.
*
* Parameters:
* *store The memory in which the object the entity should be selected from
* is allocated.
* *frame The pointer to the object.
- * *arity number of array indexes.
+ * *arity number of array indices.
* *in array with index inputs to the node.
* *sel The entity to select.
*
* Attributes:
* attr.call Contains the type information for the procedure.
*
- * ir_node *new_FuncCall (ir_node *callee, int arity, ir_node **in, type_method *type)
- * -----------------------------------------------------------------------------------
- *
- * Creates a procedure call to a function WITHOUT memory side effects.
- * nodes of this kind are floating in contrast to Call nodes.
- * Further, a procedure call with FuncCall cannot raise an exception!
- *
- * Parameters
- * *callee A pointer to the called procedure.
- * arity The number of procedure parameters.
- * **in An array with the pointers to the parameters.
- * The constructor copies this array.
- * *type Type information of the procedure called.
- *
- * Inputs:
- * The callee and the parameters.
- * Output:
- * A tuple containing the procedure results.
- * Attributes:
- * attr.call Contains the type information for the procedure.
*
* ir_node *new_Add (ir_node *op1, ir_node *op2, ir_mode *mode)
* ------------------------------------------------------------
* later) optimizations are skipped. This is necessary to
* construct Phi nodes in loops. Leaving Unknown in the Phi after finishing
* the construction may have strange effects, especially for interprocedural
- * representation and analyses.
+ * representation and analysis.
*
* Parameter
* arity number of predecessors
* Output
* The definition valid in this block.
*
+ * ir_node *new_Mux (ir_node *sel, ir_node *ir_false, ir_node *ir_true, ir_mode *mode)
+ * -----------------------------------------------------------------------------
+ *
+ * Creates a Mux node. This node implements the following semantic:
+ * If the sel node (which must be of mode_b) evaluates to true, its value is
+ * ir_true, else ir_false;
+ *
*
* OPERATIONS TO MANAGE MEMORY EXPLICITLY
* --------------------------------------
*
- * ir_node *new_Load (ir_node *store, ir_node *addr)
+ * ir_node *new_Load (ir_node *store, ir_node *addr, ir_mode *mode)
* ----------------------------------------------------------------
*
* The Load operation reads a value from memory.
* Parameters:
* *store The current memory.
* *addr A pointer to the variable to be read in this memory.
+ * *mode The mode of the value to be loaded.
*
* Inputs:
* The memory and a pointer to a variable in this memory.
* unifying the memories with a preceding Sync operation.
*
* Parameters
- * arity The number of memories to syncronize.
+ * arity The number of memories to synchronize.
* **in An array of pointers to nodes that produce an output of
* type memory.
* Inputs
* Returns the unique Bad node current_ir_graph->bad.
* This node is used to express results of dead code elimination.
*
+ * ir_node *new_NoMem (void)
+ * -----------------------------------------------------------------------------------
+ *
+ * Returns the unique NoMem node current_ir_graph->no_mem.
+ * This node is used as input for operations that need a Memory, but do not
+ * change it like Div by const != 0, analyzed calls etc.
+ *
* ir_node *new_Proj (ir_node *arg, ir_mode *mode, long proj)
* ----------------------------------------------------------
*
*
* There are two special routines for the global store:
*
- * inline void set_store (ir_node *store)
- * --------------------------------------
+ * void set_store (ir_node *store)
+ * -------------------------------
*
* Adds the store to the array of known values at a reserved
* position.
* Requires current_block to be set correctly.
*
- * inline ir_node *get_store (void)
- * --------------------------------
+ * ir_node *get_store (void)
+ * -------------------------
*
* Returns the node defining the actual store.
* Requires current_block to be set correctly.
* @param *db A pointer for debug information.
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
- * @param *mode The mode of the operands and redults.
+ * @param *mode The mode of the operands and results.
* @param *con Points to an entry in the constant table.
* @param *tp The type of the constant.
*/
* @param *db A pointer for debug information.
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
- * @param *mode The mode of the operands and redults.
+ * @param *mode The mode of the operands and results.
* @param *con Points to an entry in the constant table.
*/
ir_node *new_rd_Const (dbg_info *db, ir_graph *irg, ir_node *block,
*
* Same as new_rd_SymConst_type, except that the constructor is tailored for
* symconst_addr_ent.
- * Adds the symconst to the start block of irg. */
+ * Adds the SymConst to the start block of irg. */
ir_node *new_rd_SymConst_addr_ent (dbg_info *db, ir_graph *irg, entity *symbol, type *tp);
/** Constructor for a SymConst addr_name node.
*
* Same as new_rd_SymConst_type, except that the constructor is tailored for
* symconst_addr_ent.
- * Adds the symconst to the start block of irg. */
+ * Adds the SymConst to the start block of irg. */
ir_node *new_rd_SymConst_addr_name (dbg_info *db, ir_graph *irg, ident *symbol, type *tp);
/** Constructor for a SymConst type_tag node.
*
* Same as new_rd_SymConst_type, except that the constructor is tailored for
* symconst_addr_ent.
- * Adds the symconst to the start block of irg. */
+ * Adds the SymConst to the start block of irg. */
ir_node *new_rd_SymConst_type_tag (dbg_info *db, ir_graph *irg, type *symbol, type *tp);
/** Constructor for a SymConst size node.
*
* Same as new_rd_SymConst_type, except that the constructor is tailored for
* symconst_addr_ent.
- * Adds the symconst to the start block of irg. */
+ * Adds the SymConst to the start block of irg. */
ir_node *new_rd_SymConst_size (dbg_info *db, ir_graph *irg, type *symbol, type *tp);
/** Constructor for a Sel node.
* with a compound type. It explicitly specifies the entity selected.
* Dynamically the node may select entities that overwrite the given
* entity. If the selected entity is an array element entity the Sel
- * node takes the required array indicees as inputs.
+ * node takes the required array indices as inputs.
*
* @param *db A pointer for debug information.
* @param *irg The ir graph the node belongs to.
* from is allocated.
* @param *objptr A pointer to a compound entity the Sel operation selects a
* single attribute from.
- * @param *n_index The number of array indicees needed to select an array element entity.
- * @param *index[] If the compound entity is an array the indicees of the selected
+ * @param *n_index The number of array indices needed to select an array element entity.
+ * @param *index[] If the compound entity is an array the indices of the selected
* element entity. The constructor copies this array.
* @param *ent The entity to select.
*/
ir_node *new_rd_Call (dbg_info *db, ir_graph *irg, ir_node *block, ir_node *store,
ir_node *callee, int arity, ir_node *in[], type *tp);
-/** Constructor for a FuncCall node.
- *
- * FuncCall is a function Call that has no side effects. Therefore there
- * is not memory operand or result.
- *
- * @param *db A pointer for debug information.
- * @param *irg The ir graph the node belong to.
- * @param *block The block the node belong to.
- * @param *callee A pointer to the called procedure.
- * @param arity The number of procedure parameters.
- * @param *in[] An array with the pointers to the parameters. The constructor
- * copies this array.
- * @param *tp Type information of the procedure called.
- */
-ir_node *new_rd_FuncCall (dbg_info *db, ir_graph *irg, ir_node *block,
- ir_node *callee, int arity, ir_node *in[],
- type *tp);
-
/** Constructor for a Add node.
*
* @param *db A pointer for debug information.
* @param *block The ir block the node belongs to.
* @param *store The current memory
* @param *adr A pointer to the variable to be read in this memory.
+ * @param *mode The mode of the value to be loaded.
*/
ir_node *new_rd_Load (dbg_info *db, ir_graph *irg, ir_node *block,
- ir_node *store, ir_node *adr);
+ ir_node *store, ir_node *adr, ir_mode *mode);
/** Constructor for a Store node.
*
* @param *db A pointer for debug information.
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
- * @param arity The number of memories to syncronize.
+ * @param arity The number of memories to synchronize.
* @param *in[] An array of pointers to nodes that produce an output of type
* memory. The constructor copies this array.
*/
* Projects a single value out of a tuple. The parameter proj gives the
* position of the value within the tuple.
*
- * @param *db A pointer for deubugginformation.
+ * @param *db A pointer for debug information.
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
* @param arg A node producing a tuple. The node must have mode_T.
*
* The constructor builds the Filter in intraprocedural view.
*
+ * @param *db A pointer for debug information.
* @param *irg The ir graph the node belong to.
* @param *block The block the node belong to.
* @param *arg The tuple value to project from.
ir_node *new_rd_Filter (dbg_info *db, ir_graph *irg, ir_node *block, ir_node *arg,
ir_mode *mode, long proj);
+/** Constructor for a NoMem node.
+ *
+ * Returns the unique NoMem node of the graph. The same as
+ * get_irg_no_mem().
+ *
+ * @param *irg The ir graph the node belongs to.
+ */
+ir_node *new_rd_NoMem (ir_graph *irg);
+
+/** Constructor for a Mux node.
+ *
+ * Adds the node to the block in current_ir_block.
+ *
+ * @param *db A pointer for debug information.
+ * @param *irg The ir graph the node belong to.
+ * @param *block The block the node belong to.
+ * @param *sel The ir_node that calculates the boolean select.
+ * @param *ir_true The ir_node that calculates the true result.
+ * @param *ir_false The ir_node that calculates the false result.
+ * @param *mode The mode of the node (and it_true and ir_false).
+ */
+ir_node *new_rd_Mux (dbg_info *db, ir_graph *irg, ir_node *block,
+ ir_node *sel, ir_node *ir_false, ir_node *ir_true, ir_mode *mode);
/*-------------------------------------------------------------------------*/
/* The raw interface without debug support */
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
* @param *store The state of memory.
- * @param arity Number of array indexes.
+ * @param arity Number of array indices.
* @param *in[] Array with index inputs to the node. The constructor copies this array.
*/
ir_node *new_r_Return (ir_graph *irg, ir_node *block,
* @param *con Points to an entry in the constant table.
*/
ir_node *new_r_Const (ir_graph *irg, ir_node *block,
- ir_mode *mode, tarval *con);
+ ir_mode *mode, tarval *con);
/** Constructor for a SymConst node.
*
*
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
- * @param volue A type, entity or a ident depending on the SymConst kind.
+ * @param value A type, entity or a ident depending on the SymConst kind.
* @param symkind The kind of the symbolic constant: type_tag, size or link_info.
*/
ir_node *new_r_SymConst (ir_graph *irg, ir_node *block,
* with a compound type. It explicitly specifies the entity selected.
* Dynamically the node may select entities that overwrite the given
* entity. If the selected entity is an array element entity the Sel
- * node takes the required array indicees as inputs.
+ * node takes the required array indices as inputs.
*
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
* from is allocated.
* @param *objptr A pointer to a compound entity the Sel operation selects a
* single attribute from.
- * @param *n_index The number of array indicees needed to select an array element entity.
- * @param *index[] If the compound entity is an array the indicees of the selected
+ * @param *n_index The number of array indices needed to select an array element entity.
+ * @param *index[] If the compound entity is an array the indices of the selected
* element entity. The constructor copies this array.
* @param *ent The entity to select.
*/
* @param *x
* @param *y
* @param *z
- *
*/
ir_node *new_r_InstOf (ir_graph *irg, ir_node *block, ir_node *x, ir_node *y, type *z);
* @param arity The number of procedure parameters.
* @param *in[] An array with the pointers to the parameters. The constructor copies this array.
* @param *tp Type information of the procedure called.
- *
*/
ir_node *new_r_Call (ir_graph *irg, ir_node *block, ir_node *store,
ir_node *callee, int arity, ir_node *in[],
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_r_Add (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the results.
- *
*/
ir_node *new_r_Sub (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *block The ir block the node belongs to.
* @param *op The operand.
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_r_Minus (ir_graph *irg, ir_node *block,
ir_node *op, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_r_Mul (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_r_Quot (ir_graph *irg, ir_node *block,
ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_r_DivMod (ir_graph *irg, ir_node *block,
ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_r_Div (ir_graph *irg, ir_node *block,
ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_r_Mod (ir_graph *irg, ir_node *block,
ir_node *memop, ir_node *op1, ir_node *op2);
* @param *block The ir block the node belongs to.
* @param *op The operand
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_r_Abs (ir_graph *irg, ir_node *block,
ir_node *op, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_r_And (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_r_Or (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the results.
- *
*/
ir_node *new_r_Eor (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *block The ir block the node belongs to.
* @param *op The operand.
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_r_Not (ir_graph *irg, ir_node *block,
ir_node *op, ir_mode *mode);
* @param *block The ir block the node belongs to.
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_r_Cmp (ir_graph *irg, ir_node *block,
ir_node *op1, ir_node *op2);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_r_Shl (ir_graph *irg, ir_node *block,
ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_r_Shr (ir_graph *irg, ir_node *block,
ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand.
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_r_Shrs (ir_graph *irg, ir_node *block,
ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to rotate the operand.
* @param *mode The mode of the operand.
- *
*/
ir_node *new_r_Rot (ir_graph *irg, ir_node *block,
ir_node *op, ir_node *k, ir_mode *mode);
* @param *block The ir block the node belongs to.
* @param *op The operand.
* @param *mode The mode of this the operand muss be converted .
- *
*/
ir_node *new_r_Conv (ir_graph *irg, ir_node *block,
ir_node *op, ir_mode *mode);
* @param *block The ir block the node belongs to.
* @param *op The operand.
* @param *to_tp The type of this the operand muss be casted .
- *
*/
ir_node *new_r_Cast (ir_graph *irg, ir_node *block,
ir_node *op, type *to_tp);
* @param arity The number of predecessors
* @param *in[] Array with predecessors. The constructor copies this array.
* @param *mode The mode of it's inputs and output.
- *
*/
ir_node *new_r_Phi (ir_graph *irg, ir_node *block, int arity,
ir_node *in[], ir_mode *mode);
* @param *block The ir block the node belongs to.
* @param *store The current memory
* @param *adr A pointer to the variable to be read in this memory.
- *
+ * @param *mode The mode of the value to be loaded.
*/
ir_node *new_r_Load (ir_graph *irg, ir_node *block,
- ir_node *store, ir_node *adr);
+ ir_node *store, ir_node *adr, ir_mode *mode);
+
/** Constructor for a Store node.
*
* @param *irg The ir graph the node belongs to.
* @param *size The number of bytes to allocate.
* @param *alloc_type The type of the allocated variable.
* @param where Where to allocate the variable, either heap_alloc or stack_alloc.
- *
*/
ir_node *new_r_Alloc (ir_graph *irg, ir_node *block, ir_node *store,
ir_node *size, type *alloc_type, where_alloc where);
* @param *ptr The pointer to the object to free.
* @param *size The number of objects of type free_type to free in a sequence.
* @param *free_type The type of the freed variable.
- *
*/
ir_node *new_r_Free (ir_graph *irg, ir_node *block, ir_node *store,
ir_node *ptr, ir_node *size, type *free_type);
*
* @param *irg The ir graph the node belongs to.
* @param *block The ir block the node belongs to.
- * @param arity The number of memories to syncronize.
+ * @param arity The number of memories to synchronize.
* @param *in[] An array of pointers to nodes that produce an output of type memory.
* The constructor copies this array.
- *
*/
ir_node *new_r_Sync (ir_graph *irg, ir_node *block, int arity, ir_node *in[]);
* @param arg A node producing a tuple.
* @param *mode The mode of the value to project.
* @param proj The position of the value in the tuple.
- *
*/
ir_node *new_r_Proj (ir_graph *irg, ir_node *block, ir_node *arg,
ir_mode *mode, long proj);
* @param *block The ir block the node belongs to.
* @param arg A node producing a tuple.
* @param max_ proj The end position of the value in the tuple.
- *
*/
ir_node *new_r_defaultProj (ir_graph *irg, ir_node *block, ir_node *arg, long max_proj);
* @param *block The ir block the node belongs to.
* @param *val The operand to Id.
* @param *mode The mode of *val.
- *
*/
ir_node *new_r_Id (ir_graph *irg, ir_node *block,
ir_node *val, ir_mode *mode);
/** Constructor for a Unknown node.
*
- * Represents an arbtrary valus. Places the node in
+ * Represents an arbitrary value. Places the node in
* the start block.
*
* @param *irg The ir graph the node belongs to.
*
* @param *irg The ir graph the node belong to.
* @param *block The block the node belong to.
- * @param *callee The call node bisible in the intra procedural view.
- *
+ * @param *callee The call node visible in the intra procedural view.
*/
ir_node *new_r_CallBegin(ir_graph *irg, ir_node *block, ir_node *callee);
*
* @param *irg The ir graph the node belong to.
* @param *block The block the node belong to.
- *
*/
ir_node *new_r_EndReg (ir_graph *irg, ir_node *block);
*
* @param *irg The ir graph the node belong to.
* @param *block The block the node belong to.
- *
*/
ir_node *new_r_EndExcept(ir_graph *irg, ir_node *block);
*
* @param *irg The ir graph the node belong to.
* @param *block The block the node belong to.
- *
*/
ir_node *new_r_Break (ir_graph *irg, ir_node *block);
* @param *arg The tuple value to project from.
* @param *mode The mode of the projected value.
* @param proj The position in the tuple to project from.
- *
*/
ir_node *new_r_Filter (ir_graph *irg, ir_node *block, ir_node *arg,
ir_mode *mode, long proj);
-/** Constructor for a FuncCall node.
+/** Constructor for a NoMem node.
*
- * FuncCall is a function Call that has no side effects. Therefore there
- * is not memory operand or result.
+ * Returns the unique NoMem node of the graph. The same as
+ * get_irg_no_mem().
*
- * @param *irg The ir graph the node belong to.
- * @param *block The block the node belong to.
- * @param *callee A pointer to the called procedure.
- * @param arity The number of procedure parameters.
- * @param *in[] An array with the pointers to the parameters.
- * The constructor copies this array.
- * @param *type Type information of the procedure called.
+ * @param *irg The ir graph the node belongs to.
+ */
+ir_node *new_r_NoMem (ir_graph *irg);
+
+/** Constructor for a Mux node.
+ *
+ * Adds the node to the block in current_ir_block.
*
+ * @param *irg The ir graph the node belong to.
+ * @param *block The block the node belong to.
+ * @param *sel The ir_node that calculates the boolean select.
+ * @param *ir_true The ir_node that calculates the true result.
+ * @param *ir_false The ir_node that calculates the false result.
+ * @param *mode The mode of the node (and it_true and ir_false).
*/
-ir_node *new_r_FuncCall (ir_graph *irg, ir_node *block,
- ir_node *callee, int arity, ir_node *in[],
- type *tp);
+ir_node *new_r_Mux (ir_graph *irg, ir_node *block,
+ ir_node *sel, ir_node *ir_false, ir_node *ir_true, ir_mode *mode);
/*-----------------------------------------------------------------------*/
/* The block oriented interface */
*
* @param target The new current block.
*/
-void switch_block (ir_node *target);
+void set_cur_block (ir_node *target);
/** Returns the current block of the current graph. */
ir_node *get_cur_block(void);
* with a fixed number of predecessors. Does set current_block. Can
* be used with automatic Phi node construction.
*
- * @param *db A Pointer for debugginfomation.
+ * @param *db A Pointer for debug information.
* @param arity The number of control predecessors.
* @param in[] An array of control predecessors. The length of
* the array must be 'arity'.
* Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
- *
*/
ir_node *new_d_Start (dbg_info* db);
* Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
- *
*/
ir_node *new_d_End (dbg_info* db);
* Jmp represents control flow to a single control successor.
*
* @param *db A pointer for debug information.
- *
*/
ir_node *new_d_Jmp (dbg_info* db);
*
* @param *db A pointer for debug information.
* @param *c The conditions parameter.Can be of mode b or I_u.
- *
*/
ir_node *new_d_Cond (dbg_info* db, ir_node *c);
*
* @param *db A pointer for debug information.
* @param *store The state of memory.
- * @param arity Number of array indexes.
+ * @param arity Number of array indices.
* @param *in Array with index inputs to the node.
- *
*/
ir_node *new_d_Return (dbg_info* db, ir_node *store, int arity, ir_node *in[]);
* @param *db A pointer for debug information.
* @param *store The current memory.
* @param *obj A pointer to the Except variable.
- *
*/
ir_node *new_d_Raise (dbg_info* db, ir_node *store, ir_node *obj);
* level type information for the constant value.
*
* @param *db A pointer for debug information.
- * @param *mode The mode of the operands and redults.
+ * @param *mode The mode of the operands and results.
* @param *con Points to an entry in the constant table. This pointer is
added to the attributes of the node.
- * @param *tp The type of the constante.
- *
+ * @param *tp The type of the constant.
*/
-
ir_node *new_d_Const_type (dbg_info* db, ir_mode *mode, tarval *con, type *tp);
/** Constructor for a Const node.
* supported: If tv is entity derives a somehow useful type.)
*
* @param *db A pointer for debug information.
- * @param *mode The mode of the operands and redults.
+ * @param *mode The mode of the operands and results.
* @param *con Points to an entry in the constant table. This pointer is added
* to the attributes of the node.
- *
*/
ir_node *new_d_Const (dbg_info* db, ir_mode *mode, tarval *con);
* @param *objptr The object from that the Sel operation selects a
* single attribute out.
* @param *ent The entity to select.
- *
*/
ir_node *new_d_simpleSel(dbg_info* db, ir_node *store, ir_node *objptr, entity *ent);
* with a compound type. It explicitly specifies the entity selected.
* Dynamically the node may select entities that overwrite the given
* entity. If the selected entity is an array element entity the Sel
- * node takes the required array indicees as inputs.
+ * node takes the required array indices as inputs.
* Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
* from is allocated.
* @param *objptr A pointer to a compound entity the Sel operation selects a
* single attribute from.
- * @param *n_index The number of array indicees needed to select an array element entity.
- * @param *index[] If the compound entity is an array the indicees of the selected
+ * @param *n_index The number of array indices needed to select an array element entity.
+ * @param *index[] If the compound entity is an array the indices of the selected
* element entity. The constructor copies this array.
* @param *ent The entity to select.
*/
* @param *store
* @param *objptr
* @param *ent
- *
*/
ir_node *new_d_InstOf (dbg_info* db, ir_node *store, ir_node *objptr, type *ent);
* @param arity The number of procedure parameters.
* @param *in[] An array with the pointers to the parameters. The constructor copies this array.
* @param *tp Type information of the procedure called.
- *
*/
ir_node *new_d_Call (dbg_info* db, ir_node *store, ir_node *callee, int arity, ir_node *in[],
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_d_Add (dbg_info* db, ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_d_Sub (dbg_info* db, ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *db A pointer for debug information.
* @param *op The operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_d_Minus (dbg_info* db, ir_node *op, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_d_Mul (dbg_info* db, ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_d_Quot (dbg_info* db, ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_d_DivMod (dbg_info* db, ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_d_Div (dbg_info* db, ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_d_Mod (dbg_info* db, ir_node *memop, ir_node *op1, ir_node *op2);
* @param *db A pointer for debug information.
* @param *op The operand
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_d_Abs (dbg_info* db, ir_node *op, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_d_And (dbg_info* db, ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_d_Or (dbg_info* db, ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the results.
- *
*/
ir_node *new_d_Eor (dbg_info* db, ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *db A pointer for debug information.
* @param *op The operand.
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_d_Not (dbg_info* db, ir_node *op, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_d_Shl (dbg_info* db, ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_d_Shr (dbg_info* db, ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_d_Shrs (dbg_info* db, ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to rotate the operand.
* @param *mode The mode of the operand.
- *
*/
ir_node *new_d_Rot (dbg_info* db, ir_node *op, ir_node *k, ir_mode *mode);
* @param *db A pointer for debug information.
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_d_Cmp (dbg_info* db, ir_node *op1, ir_node *op2);
* @param *db A pointer for debug information.
* @param *op The operand.
* @param *mode The mode of this the operand muss be converted .
- *
*/
ir_node *new_d_Conv (dbg_info* db, ir_node *op, ir_mode *mode);
* @param *db A pointer for debug information.
* @param *op The operand.
* @param *to_tp The type of this the operand muss be casted .
- *
*/
ir_node *new_d_Cast (dbg_info* db, ir_node *op, type *to_tp);
*
* Adds the node to the block in current_ir_block.
*
- * @param *db A pointer for debugginaromation.
+ * @param *db A pointer for debug information.
* @param arity The number of predecessors
* @param *in Array with predecessors
* @param *mode The mode of it's inputs and output.
- *
*/
ir_node *new_d_Phi (dbg_info* db, int arity, ir_node *in[], ir_mode *mode);
* @param *db A pointer for debug information.
* @param *store The current memory
* @param *adr A pointer to the variable to be read in this memory.
- *
+ * @param *mode The mode of the value to be loaded.
*/
-ir_node *new_d_Load (dbg_info* db, ir_node *store, ir_node *addr);
+ir_node *new_d_Load (dbg_info* db, ir_node *store, ir_node *addr, ir_mode *mode);
/** Constructor for a Store node.
*
* @param *size The number of bytes to allocate.
* @param *alloc_type The type of the allocated variable.
* @param where Where to allocate the variable, either heap_alloc or stack_alloc.
- *
*/
ir_node *new_d_Alloc (dbg_info* db, ir_node *store, ir_node *size, type *alloc_type,
where_alloc where);
* @param *ptr The pointer to the object to free.
* @param *size The number of objects of type free_type to free in a sequence.
* @param *free_type The type of the freed variable.
- *
*/
ir_node *new_d_Free (dbg_info* db, ir_node *store, ir_node *ptr, ir_node *size,
type *free_type);
* Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
- * @param arity The number of memories to syncronize.
+ * @param arity The number of memories to synchronize.
* @param **in An array of pointers to nodes that produce an output of type
* memory. The constructor copies this array.
- *
*/
ir_node *new_d_Sync (dbg_info* db, int arity, ir_node *in[]);
* position of the value within the tuple.
* Adds the node to the block in current_ir_block.
*
- * @param *db A pointer for deubugginformation.
+ * @param *db A pointer for deubug information.
* @param arg A node producing a tuple.
* @param *mode The mode of the value to project.
* @param proj The position of the value in the tuple.
- *
*/
ir_node *new_d_Proj (dbg_info* db, ir_node *arg, ir_mode *mode, long proj);
* @param *db A pointer for debug information.
* @param arg A node producing a tuple.
* @param max_ proj The end position of the value in the tuple.
- *
*/
ir_node *new_d_defaultProj (dbg_info* db, ir_node *arg, long max_proj);
* @param *db A pointer for debug information.
* @param arity The number of tuple elements.
* @param **in An array containing pointers to the nodes producing the tuple elements.
- *
*/
ir_node *new_d_Tuple (dbg_info* db, int arity, ir_node *in[]);
* @param *db A pointer for debug information.
* @param *val The operand to Id.
* @param *mode The mode of *val.
- *
*/
ir_node *new_d_Id (dbg_info* db, ir_node *val, ir_mode *mode);
-/** Costructor for a Bad node.
+/** Constructor for a Bad node.
*
* Returns the unique Bad node of the graph. The same as
* get_irg_bad().
- *
*/
ir_node *new_d_Bad (void);
* @param *val The value we express a constraint for
* @param *bound The value to compare against. Must be a firm node, typically a constant.
* @param cmp The compare operation.
- *
*/
ir_node *new_d_Confirm (dbg_info* db, ir_node *val, ir_node *bound, pn_Cmp cmp);
/** Constructor for an Unknown node.
*
- * Represents an arbtrary valus. Places the node in
+ * Represents an arbitrary value. Places the node in
* the start block.
*
* @param *m The mode of the unknown value.
- *
*/
ir_node *new_d_Unknown(ir_mode *m);
* node.Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
- * @param *callee The call node bisible in the intra procedural view.
- *
+ * @param *callee The call node visible in the intra procedural view.
*/
ir_node *new_d_CallBegin(dbg_info *db, ir_node *callee);
*Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
- *
*/
ir_node *new_d_EndReg (dbg_info *db);
-/** Constructor for an Endexcept node.
+/** Constructor for an EndExcept node.
*
* Used to represent regular procedure end in interprocedual view.
* Adds the node to the block in current_ir_block.
*
* @param *db A pointer for debug information.
- *
*/
ir_node *new_d_EndExcept(dbg_info *db);
* behind Call nodes to represent the control flow to called procedures.
*
* @param *db A pointer for debug information.
- *
*/
ir_node *new_d_Break (dbg_info *db);
* @param *arg The tuple value to project from.
* @param *mode The mode of the projected value.
* @param proj The position in the tuple to project from.
- *
*/
ir_node *new_d_Filter (dbg_info *db, ir_node *arg, ir_mode *mode, long proj);
-/** Constructor for a FuncCall node.
+/** Constructor for a NoMem node.
*
- * FuncCall is a function Call that has no side effects. Therefore there
- * is not memory operand or result. Adds the node to the block in current_ir_block.
+ * Returns the unique NoMem node of the graph. The same as
+ * get_irg_no_mem().
+ */
+ir_node *new_d_NoMem (void);
+
+/** Constructor for a Mux node.
*
- * @param *db A pointer for debug information.
- * @param *callee A pointer to the called procedure.
- * @param arity The number of procedure parameters.
- * @param **in An array with the pointers to the parameters.
- * The constructor copies this array.
- * @param *tp Type information of the procedure called.
+ * Adds the node to the block in current_ir_block.
*
+ * @param *db A pointer for debug information.
+ * @param *sel The ir_node that calculates the boolean select.
+ * @param *ir_true The ir_node that calculates the true result.
+ * @param *ir_false The ir_node that calculates the false result.
+ * @param *mode The mode of the node (and it_true and ir_false).
*/
-ir_node *new_d_FuncCall (dbg_info* db, ir_node *callee, int arity, ir_node *in[],
- type *tp);
+ir_node *new_d_Mux (dbg_info *db, ir_node *sel,
+ ir_node *ir_false, ir_node *ir_true, ir_mode *mode);
/*-----------------------------------------------------------------------*/
/* The block oriented interface without debug support */
/*-----------------------------------------------------------------------*/
-/* Needed from the interfase with debug support:
-void switch_block (ir_node *target); */
+/* Needed from the interface with debug support:
+void set_cur_block (ir_node *target); */
/** Constructor for a Block node.
*
/** Constructor for an End node.
*
* Adds the node to the block in current_ir_block.
- *
*/
ir_node *new_End (void);
*
* Used to represent regular procedure end in interprocedual view.
* Adds the node to the block in current_ir_block.
- *
*/
ir_node *new_EndReg (void);
*
* Used to represent exceptional procedure end in interprocedural view.
* Adds the node to the block in current_ir_block.
- *
- *
- *
*/
ir_node *new_EndExcept(void);
-/**
+/** Constructor for a Jump node.
*
- * Constructor for a Jump node. Adds the node to the block in current_ir_block.
+ * Adds the node to the block in current_ir_block.
*
* Jmp represents control flow to a single control successor.
- *
*/
ir_node *new_Jmp (void);
* The blocks separated by a break may not be concatenated by an optimization.
* It is used for the interprocedural representation where blocks are parted
* behind Call nodes to represent the control flow to called procedures.
- *Adds the node to the block in current_ir_block.
- *
+ * Adds the node to the block in current_ir_block.
*/
ir_node *new_Break (void);
*
*
* @param *c The conditions parameter.Can be of mode b or I_u.
- *
*/
ir_node *new_Cond (ir_node *c);
* can end regular control flow. Adds the node to the block in current_ir_block.
*
* @param *store The state of memory.
- * @param arity Number of array indexes.
+ * @param arity Number of array indices.
* @param *in Array with index inputs to the node.
- *
*/
ir_node *new_Return (ir_node *store, int arity, ir_node *in[]);
*
* @param *store The current memory.
* @param *obj A pointer to the Except variable.
- *
*/
ir_node *new_Raise (ir_node *store, ir_node *obj);
* supported: If tv is entity derives a somehow useful type.)
* Adds the node to the block in current_ir_block.
*
- * @param *mode The mode of the operands and redults.
+ * @param *mode The mode of the operands and results.
* @param *con Points to an entry in the constant table. This pointer is
* added to the attributes of the node.
- *
*/
ir_node *new_Const (ir_mode *mode, tarval *con);
+/** Constructor for a Const node.
+ *
+ * Derives mode from passed type. */
+ir_node *new_Const_type(tarval *con, type *tp);
+
/** Constructor for a SymConst node.
*
* Adds the node to the block in current_ir_block.
*
* @param value A type or a ident depending on the SymConst kind.
* @param symkind The kind of the symbolic constant: symconst_type_tag, symconst_size or symconst_addr_name.
- *
*/
ir_node *new_SymConst (union symconst_symbol value, symconst_kind kind);
* @param *store The memory in which the object the entity should be selected from is allocated.
* @param *objptr The object from that the Sel operation selects a single attribute out.
* @param *ent The entity to select.
- *
*/
ir_node *new_simpleSel(ir_node *store, ir_node *objptr, entity *ent);
* with a compound type. It explicitly specifies the entity selected.
* Dynamically the node may select entities that overwrite the given
* entity. If the selected entity is an array element entity the Sel
- * node takes the required array indicees as inputs.
+ * node takes the required array indices as inputs.
* Adds the node to the block in current_ir_block.
*
* @param *store The memory in which the object the entity should be selected
* from is allocated.
* @param *objptr A pointer to a compound entity the Sel operation selects a
* single attribute from.
- * @param *n_index The number of array indicees needed to select an array element entity.
- * @param *index[] If the compound entity is an array the indicees of the selected
+ * @param *n_index The number of array indices needed to select an array element entity.
+ * @param *index[] If the compound entity is an array the indices of the selected
* element entity. The constructor copies this array.
* @param *ent The entity to select.
*/
* @param *store
* @param *objptr
* @param *ent
- *
*/
ir_node *new_InstOf (ir_node *store, ir_node *obj, type *ent);
* @param arity The number of procedure parameters.
* @param *in[] An array with the pointers to the parameters. The constructor copies this array.
* @param *tp Type information of the procedure called.
- *
*/
ir_node *new_Call (ir_node *store, ir_node *callee, int arity, ir_node *in[],
type *tp);
* Adds the node to the block in current_ir_block.
*
* @param *callee A pointer to the called procedure.
- *
*/
ir_node *new_CallBegin(ir_node *callee);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_Add (ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_Sub (ir_node *op1, ir_node *op2, ir_mode *mode);
*
* @param *op The operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_Minus (ir_node *op, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_Mul (ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_Quot (ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_DivMod (ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_Div (ir_node *memop, ir_node *op1, ir_node *op2);
* @param *memop The store needed to model exceptions
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_Mod (ir_node *memop, ir_node *op1, ir_node *op2);
*
* @param *op The operand
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_Abs (ir_node *op, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_And (ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the result.
- *
*/
ir_node *new_Or (ir_node *op1, ir_node *op2, ir_mode *mode);
* @param *op1 The operand 1.
* @param *op2 The operand 2.
* @param *mode The mode of the operands and the results.
- *
*/
ir_node *new_Eor (ir_node *op1, ir_node *op2, ir_mode *mode);
*
* @param *op The operand.
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_Not (ir_node *op, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_Shl (ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_Shr (ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to shift the operand .
* @param *mode The mode of the operand and the result.
- *
*/
ir_node *new_Shrs (ir_node *op, ir_node *k, ir_mode *mode);
* @param *op The operand.
* @param *k The number of bits to rotate the operand.
* @param *mode The mode of the operand.
- *
*/
ir_node *new_Rot (ir_node *op, ir_node *k, ir_mode *mode);
*
* @param *op1 The operand 1.
* @param *op2 The operand 2.
- *
*/
ir_node *new_Cmp (ir_node *op1, ir_node *op2);
*
* @param *op The operand.
* @param *mode The mode of this the operand muss be converted .
- *
*/
ir_node *new_Conv (ir_node *op, ir_mode *mode);
*
* @param *op The operand.
* @param *to_tp The type of this the operand muss be casted .
- *
*/
ir_node *new_Cast (ir_node *op, type *to_tp);
*
* Adds the node to the block in current_ir_block.
*
- * @param arity The number of predecessors
- * @param *in Array with predecessors
+ * @param arity The number of predecessors.
+ * @param *in Array with predecessors.
* @param *mode The mode of it's inputs and output.
- *
*/
ir_node *new_Phi (int arity, ir_node *in[], ir_mode *mode);
/** Constructor for a Load node.
*
- * @param *store The current memory
+ * @param *store The current memory.
* @param *addr A pointer to the variable to be read in this memory.
- *
+ * @param *mode The mode of the value to be loaded.
*/
-ir_node *new_Load (ir_node *store, ir_node *addr);
+ir_node *new_Load (ir_node *store, ir_node *addr, ir_mode *mode);
/** Constructor for a Store node.
*
- * @param *store The current memory
+ * @param *store The current memory.
* @param *addr A pointer to the variable to be read in this memory.
- * @param *val The value to write to this variable.
+ * @param *val The value to write to this variable.
*/
ir_node *new_Store (ir_node *store, ir_node *addr, ir_node *val);
* @param *size The number of bytes to allocate.
* @param *alloc_type The type of the allocated variable.
* @param where Where to allocate the variable, either heap_alloc or stack_alloc.
- *
*/
ir_node *new_Alloc (ir_node *store, ir_node *size, type *alloc_type,
where_alloc where);
* @param *ptr The pointer to the object to free.
* @param *size The number of objects of type free_type to free in a sequence.
* @param *free_type The type of the freed variable.
- *
*/
ir_node *new_Free (ir_node *store, ir_node *ptr, ir_node *size,
type *free_type);
* value in all memories where it occurs.
* Adds the node to the block in current_ir_block.
*
- * @param arity The number of memories to syncronize.
+ * @param arity The number of memories to synchronize.
* @param **in An array of pointers to nodes that produce an output of type
* memory. The constructor copies this array.
- *
*/
ir_node *new_Sync (int arity, ir_node *in[]);
* @param arg A node producing a tuple.
* @param *mode The mode of the value to project.
* @param proj The position of the value in the tuple.
- *
*/
ir_node *new_Proj (ir_node *arg, ir_mode *mode, long proj);
* @param *arg The tuple value to project from.
* @param *mode The mode of the projected value.
* @param proj The position in the tuple to project from.
- *
*/
ir_node *new_Filter (ir_node *arg, ir_mode *mode, long proj);
*
* @param arg A node producing a tuple.
* @param max_ proj The end position of the value in the tuple.
- *
*/
ir_node *new_defaultProj (ir_node *arg, long max_proj);
*
* @param arity The number of tuple elements.
* @param **in An array containing pointers to the nodes producing the tuple elements.
- *
*/
ir_node *new_Tuple (int arity, ir_node *in[]);
*
* @param *val The operand to Id.
* @param *mode The mode of *val.
- *
*/
ir_node *new_Id (ir_node *val, ir_mode *mode);
*
* Returns the unique Bad node of the graph. The same as
* get_irg_bad().
- *
*/
-
ir_node *new_Bad (void);
/** Constructor for a Confirm node.
* @param *val The value we express a constraint for
* @param *bound The value to compare against. Must be a firm node, typically a constant.
* @param cmp The compare operation.
- *
*/
ir_node *new_Confirm (ir_node *val, ir_node *bound, pn_Cmp cmp);
* the start block.
*
* @param *m The mode of the unknown value.
- *
*/
ir_node *new_Unknown(ir_mode *m);
-/** Constructor for a FuncCall node.
+/** Constructor for a NoMem node.
*
- * FuncCall is a function Call that has no side effects. Therefore there
- * is not memory operand or result.Adds the node to the block in current_ir_block.
+ * Returns the unique NoMem node of the graph. The same as
+ * get_irg_no_mem().
+ */
+ir_node *new_NoMem (void);
+
+/** Constructor for a Mux node.
*
- * @param *callee A pointer to the called procedure.
- * @param arity The number of procedure parameters.
- * @param **in An array with the pointers to the parameters.
- * The constructor copies this array.
- * @param *tp Type information of the procedure called.
+ * Adds the node to the block in current_ir_block.
*
+ * @param *sel The ir_node that calculates the boolean select.
+ * @param *ir_true The ir_node that calculates the true result.
+ * @param *ir_false The ir_node that calculates the false result.
+ * @param *mode The mode of the node (and it_true and ir_false).
*/
-ir_node *new_FuncCall (ir_node *callee, int arity, ir_node *in[],
- type *tp);
+ir_node *new_Mux (ir_node *sel, ir_node *ir_false, ir_node *ir_true, ir_mode *mode);
/*---------------------------------------------------------------------*/
/* The comfortable interface. */
ir_node *new_immBlock (void);
/** Add a control flow edge to an immature block. */
-void add_in_edge (ir_node *immblock, ir_node *jmp);
+void add_immBlock_pred (ir_node *immblock, ir_node *jmp);
/** Fix the number of predecessors of an immature block. */
-void mature_block (ir_node *block);
+void mature_immBlock (ir_node *block);
+#define mature_cur_block() mature_immBlock(get_cur_block());
/** Get the current value of a local variable.
*
* @param pos The position/id of the local variable.
* @param *value The new value written to the local variable.
-*/
+ */
void set_value (int pos, ir_node *value);
/** Get the current memory state.
* Use this function to obtain the last definition of the memory
* state. This call automatically inserts Phi nodes for the memory
* state value.
- *
*/
ir_node *get_store (void);
* This call is needed to automatically inserts Phi nodes.
*
* @param *store The new memory state.
-*/
+ */
void set_store (ir_node *store);
/** keep this node alive even if End is not control-reachable from it
* This function is called, whenever a local variable is used before definition
*
* @parameter mode the mode of the local var
- * @pos position choosen be the frontend for this var
+ * @pos position chosen be the frontend for this var
*
- * @return a firm node of mode @p mode that initialises the var at position pos
+ * @return a firm node of mode @p mode that initializes the var at position pos
*
* @note
* Do not return NULL
*/
typedef ir_node *default_initialize_local_variable_func_t(ir_mode *mode, int pos);
-/**
- * Initializes the graph construction.
- *
- * @param func @see default_initialize_local_variable_func_t
- */
-void init_cons (default_initialize_local_variable_func_t *func);
# endif /* _IRCONS_H_ */